Title :
On the Secrecy Rate of Multi-Antenna Wiretap Channel under Finite-Alphabet Input
Author :
Bashar, Shafi ; Ding, Zhi ; Xiao, Chengshan
Author_Institution :
Dept. of Electr. & Comput. Eng., Univ. of California, Davis, CA, USA
fDate :
5/1/2011 12:00:00 AM
Abstract :
This work investigates the effect of limiting source signals to finite-alphabet on the secrecy rate of a multi-antenna wiretap system. Existing works have characterized maximum achievable secrecy rate or secrecy capacity for single- and multi-antenna systems based on Gaussian source signals and secrecy code. Despite the impracticality of Gaussian source, its compact closed-form expression of mutual information motivated broad use of Gaussian input assumption. For practical consideration, we study the effect of finite discrete-constellation on instantaneous and ergodic secrecy rate of multiple-antenna wire-tap channels. Our results demonstrate substantial difference between systems involving finite-alphabet inputs and systems with Gaussian inputs. Results from Gaussian inputs serve as upper-bound of secrecy rate for practical systems with finite alphabet inputs.
Keywords :
Gaussian channels; antennas; Gaussian input; Gaussian source signal; ergodic secrecy rate; finite discrete constellation; finite-alphabet input; multi-antenna system; multi-antenna wiretap channel; multi-antenna wiretap system; multiple antenna wire-tap channel; secrecy capacity; secrecy code; single-antenna system; Array signal processing; Jamming; Mutual information; Optimization; Power control; Resource management; Signal to noise ratio; Wiretap channel; eavesdropping; ergodic secrecy rate; finite-alphabet input; information-theoretic security;
Journal_Title :
Communications Letters, IEEE
DOI :
10.1109/LCOMM.2011.032811.102539
